School of Basic Medical Sciences, Wuhan University, Wuhan, China.
Key Laboratory of Genomics and Precision Medicine, Beijing Institute of Genomics, Chinese Academy of Sciences, Beijing, China.
Cancer Res. 2019 Jan 1;79(1):86-98. doi: 10.1158/0008-5472.CAN-18-1310. Epub 2018 Nov 20.
The histone demethylase KDM4B is frequently overexpressed in various cancer types, and previous studies have indicated that the primary oncogenic function of KDM4B is its ability to demethylate H3K9me3 in different tumors, resulting in altered gene expression and genome instability. A genome-wide analysis to evaluate the effect of KDM4B on the global or local H3K9me3 level has not been performed. In this study, we assess whole-genome H3K9me3 distribution in cancer cells and find that H3K9me3 is largely enriched in long interspersed nuclear element-1 (LINE-1). A significant proportion of KDM4B-dependent H3K9me3 was located in evolutionarily young LINE-1 elements, which likely retain retrotransposition activity. Ectopic expression of KDM4B promoted LINE-1 expression, while depletion of KDM4B reduced it. Furthermore, KDM4B overexpression enhanced LINE-1 retrotransposition efficacy, copy number, and associated DNA damage, presumably via the histone demethylase activity of KDM4B. Breast cancer cell lines expressing high levels of KDM4B also exhibited increased LINE-1 expression and copy number compared with other cell lines. Pharmacologic inhibition of KDM4B significantly reduced LINE-1 expression and DNA damage in breast cancer cells with excessive KDM4B. Our study not only identifies KDM4B as a novel regulator of LINE-1, but it also suggests an unexpected oncogenic role for KDM4B overexpression in tumorigenesis, providing clues for the development of new cancer prevention strategies and therapies. SIGNIFICANCE: The histone demethylase KDM4B promotes tumorigenesis by inducing retrotransposition and DNA damage.
组蛋白去甲基酶 KDM4B 在多种癌症类型中频繁过表达,先前的研究表明 KDM4B 的主要致癌功能是其在不同肿瘤中去甲基化 H3K9me3 的能力,导致基因表达改变和基因组不稳定。尚未进行全基因组分析以评估 KDM4B 对全局或局部 H3K9me3 水平的影响。在这项研究中,我们评估了癌细胞中全基因组 H3K9me3 的分布,发现 H3K9me3 在长散布核元件-1(LINE-1)中大量富集。依赖于 KDM4B 的 H3K9me3 的很大一部分位于进化上年轻的 LINE-1 元件中,这些元件可能保留反转录转座活性。KDM4B 的异位表达促进了 LINE-1 的表达,而 KDM4B 的缺失则降低了其表达。此外,KDM4B 的过表达增强了 LINE-1 的反转录转座效率、拷贝数和相关的 DNA 损伤,推测这是通过 KDM4B 的组蛋白去甲基酶活性。表达高水平 KDM4B 的乳腺癌细胞系与其他细胞系相比,表现出更高的 LINE-1 表达和拷贝数。KDM4B 的药理学抑制显著降低了乳腺癌细胞中过多 KDM4B 的 LINE-1 表达和 DNA 损伤。我们的研究不仅确定了 KDM4B 是 LINE-1 的新型调节因子,而且还表明 KDM4B 过表达在肿瘤发生中具有意想不到的致癌作用,为新的癌症预防策略和治疗方法的发展提供了线索。意义:组蛋白去甲基酶 KDM4B 通过诱导反转录转座和 DNA 损伤促进肿瘤发生。
